DE202022102245U1 - Electric motor, transmission unit and mobile machine comprising such an electric motor - Google Patents

Abstract

Electric motor (1) comprising a stator (2) and a rotor (3) mounted coaxially with each other, a rotating shaft (4) driven by the rotor (3), a fan (5) connected to the rotating shaft (4) coaxial and non-rotatably connected to this rotary shaft (4), at least one ball bearing (6) mounted on the rotary shaft (4) and a perforated casing (7) inside which the rotor (3), the stator ( 2) the rotating shaft (4), the fan (5) and the ball bearing (6) are at least partially arranged, the ball bearing (6) comprising an outer ring (9) and an inner ring (10) which are coaxial, and two side pieces (11) delimiting between them a chamber (12) containing a lubricant and housing the balls (13) of the bearing (6), the inner ring (10) being non-rotatably connected to the rotary shaft (4). , the outer ring (9) of the bearing (6) being non-rotatably mounted inside the casing (7), characterized in that the motor (1) has a deflection disc (14), mounted on the rotary shaft (4) between the rotor (3) and the ball bearing (8), and at least one spacer (15) arranged between the ball bearing (6) and the deflection disc (14) to space the deflection disc ( 14) at least from the outer ring (9) of the ball bearing (6), wherein the deflection disc (14), which is non-rotatably connected to the rotary shaft (4), has an outer diameter at least equal to the inner diameter (Di ) of the outer ring (9) of the bearing (6), this inner diameter (Di) of the outer ring (9) of the bearing (6) being measured on the side piece (11) of the ball bearing (6) which faces the deflection disc (14) at next is.

Description

The present invention relates to an electric motor and a transmission unit and a mobile machine that include such an electric motor.

It relates in particular to an electric motor comprising a stator and a rotor mounted coaxially with one another, a rotary shaft driven by the rotor, a fan coaxial with the rotary shaft and non-rotatably connected to the rotary shaft, at least one ball bearing mounted on the rotating shaft, and a perforated shell, inside which are arranged the rotor, the stator, the fan and the ball bearing, the ball bearing having an outer ring and an inner ring that are coaxial, and two side pieces that between them a chamber containing a lubricant and housing the balls of the bearing, the inner ring being non-rotatably connected to the rotary shaft, the outer ring of the bearing being fixed in place inside the shell.

Such an electric motor is well known to those skilled in the art. Such an engine can work with a reduced risk of overheating due to the presence of a fan. This fan makes it possible to generate a flow of air capable of circulating inside the openwork, that is to say provided with air circulation openings, envelope. This results in improved functionality and reduced maintenance. However, it is possible that such an electric motor has to work in a dusty environment. There is then a risk of ambient dust penetrating the inside of the motor casing. Solutions are therefore being sought that make it possible to prevent the troubles that can occur as a result of this infiltration of dust inside the motor, without jeopardizing the compactness and simplicity of the motor or its ease of maintenance.

An object of the invention is to propose an electric motor whose construction makes it possible to limit the risks of malfunctions, in particular during movement of the electric motor in a dusty environment.

To this end, the subject of the invention is an electric motor comprising a stator and a rotor mounted coaxially with one another, a rotary shaft driven by the rotor, a fan coaxial with the rotary shaft and non-rotatably connected to this rotary shaft, at least one Ball bearing mounted on the rotating shaft and a perforated shell inside which the rotor, the stator, the rotating shaft, the fan and the ball bearing are at least partially arranged, the ball bearing having an outer ring and an inner ring that are coaxial , and two side pieces defining between them a chamber containing a lubricant and housing the balls of the bearing, the inner ring being non-rotatably connected to the rotary shaft, the outer ring of the bearing being non-rotatably mounted inside the casing, characterized in that that the motor has a deflection disc that is mounted on the rotary shaft between the rotor and the ball bearing and at least one spacer disc disposed between the ball bearing and the deflection disc to space the deflection disc from at least the outer ring of the ball bearing, the deflection disc non-rotatably connected to the rotary shaft having an outside diameter that is at least equal to the inner diameter of the outer ring of the bearing, this inner diameter of the outer ring of the bearing being measured at the side piece of the ball bearing which is closest to the deflection disc.

The presence of a deflector washer with a dimension chosen according to that of the outer ring of the bearing makes it possible to limit the risks of premature damage to the ball bearing.

In one embodiment, the motor includes a spacer disc disposed between the ball bearing and the deflection disc to space the deflection disc at least from the outer race of the bearing. This configuration is characterized by its simplicity. This arrangement makes it possible to avoid premature damage to the outer ring of the bearing due to friction on the deflection disc.

According to one embodiment of the invention, the fan comprises several so-called radial air circulation blades mounted in a radial arrangement on a common support which is non-rotatably connected to the rotary shaft.

According to one embodiment of the invention, the rotor is arranged between the fan and the ball bearing. Thanks to this design, the deflection function of the deflection disc is optimized.

The subject of the invention is also a gear unit comprising at least one electric motor and a drive device, the electric motor having a stator and a rotor mounted coaxially with one another, a rotary shaft driven by the rotor, a fan coaxial with the rotary shaft and is rotatably connected to this rotary shaft, at least one Ball bearing mounted on the rotating shaft and a perforated shell inside which the rotor, the stator, the rotating shaft, the fan and the ball bearing are at least partially arranged, the ball bearing having an outer ring and an inner ring that are coaxial , and two side pieces that limit a chamber that contains a lubricant and absorbs the balls of the bearing, whereby the inner ring is connected to the rotary wave, whereby the outer ring of the warehouse is attached to the inside of the shell. in that the electric motor conforms to that described above, in that the driving device is a driving device with which the rotary shaft of the motor is able to engage for transmission of the rotary motion of the rotary shaft to the driving device, and in that the electric motor and at least part of the drive device at least partially inside a s housing are included, which forms the housing of the gear unit.

The subject of the invention is also a mobile machine, such as a lawn mower, the mobile machine comprising at least one electric motor, characterized in that the electric motor conforms to that described above.

character list

• 1 eine perspektivische Ansicht einer fahrbaren Maschine, insbesondere eines Rasenmähers, zeigt, die mit einem Elektromotor gemäß der Erfindung ausgestattet ist;
• 2 eine Teilschnittansicht eines Elektromotors zeigt, der im Inneren eines Gehäuses einer Getriebeeinheit aufgenommen ist;
• 3 eine Teilansicht des Wälzlagers von 2 zeigt;
• 4 eine Teilansicht eines Motors in einer auseinandergezogenen Ansicht der drehenden oder in Rotation versetzten Elemente des Motors zeigt;
• 5 eine perspektivische Teilansicht einer Getriebeeinheit im wenigstens teilweise geöffneten Zustand des Gehäuses der Getriebeeinheit zeigt;
• 6 eine perspektivische Teilansicht einer Getriebeeinheit einer Getriebeeinheit zeigt.

The invention will be better understood by reading the following description of exemplary embodiments with reference to the accompanying drawings, in which:

• 1 Figure 3 shows a perspective view of a mobile machine, in particular a lawnmower, equipped with an electric motor according to the invention;
• 2 Figure 12 shows a partial sectional view of an electric motor accommodated inside a housing of a transmission unit;
• 3 a partial view of the roller bearing of 2 indicates;
• 4 Figure 12 shows a partial view of an engine in an exploded view of the rotating or rotated elements of the engine;
• 5 shows a perspective partial view of a transmission unit in the at least partially open state of the housing of the transmission unit;
• 6 shows a perspective partial view of a transmission unit of a transmission unit.

As mentioned above, the subject of the invention is an electric motor 1, the applications of which can be varied and diverse.

The figures illustrate an example of an electric motor 1 used for rotating the wheels of a mobile machine 23, shown here in the form of a lawnmower; however, the electric motor 1 can be used for any other type of mobile machine without departing from the scope of the invention.

This electric motor 1 comprises, in a manner known per se, a stator 2 and a rotor 3 which are coaxial, that is to say mounted coaxially with one another. Thus, the rotor 3 is a rotor 3 rotating around a rotation axis, and the stator 2 is arranged around the rotor 3 so as to extend coaxially with respect to the rotation axis of the rotor 3 .

The rotor 3 and the stator 2 are not described in more detail below since they can be formed by a commercially available rotor or stator.

In the example shown, the rotor 3 comprises a stack of laminations through which a rotating shaft 4 passes. In fact, the electric motor 1 also comprises a rotating shaft 4 driven by the rotor 3 and connected to the rotor 3 in rotation. The axis of rotation of this rotary shaft 4 and the axis of rotation of the rotor 3 coincide.

The electric motor 1 further includes a fan 5 which is coaxial with the rotating shaft 4 of the electric motor 1 . This fan 5 is non-rotatably connected to the rotating shaft 4 . This fan 5 is carried by the rotary shaft 4 of the electric motor 1.

In the example shown, this fan 5 comprises a plurality of so-called radial air circulation blades 16 mounted in a radial arrangement on a common support 17 connected in rotation to the rotary shaft 4 . This common support 17 can be in the form of a plate with a central cutout so that a rotary shaft 4 carrying the fan can pass through it. The non-rotatable attachment can be obtained by complementary shapes, such as grooves and corrugations, or by gluing.

The electric motor 1 further comprises a ball bearing 6 and a perforated shell 7, inside which the rotor 3, the stator 2, the rotary shaft 4, the fan 5 and the ball bearing 6 are at least partially arranged.

The openings 8 in the sleeve 7 are formed by continuous openings which are formed in the sleeve 7 . This shell 7 is essentially a rigid shell. This case 7 can be made of metal, composite material, plastic or other material. This envelope 7 can be of a substantially cylindrical shape.

The shell 7 is provided, in the example shown, with two opposite through holes formed in two opposite walls of the shell to allow the rotary shaft 4 to protrude from the shell 7 at each of its ends. The through holes are here formed on the partially closed end faces of the cylinder.

In the example shown, the other elements, namely the rotor 3, the stator 2, the fan 5 and the ball bearing 6, are housed entirely inside the casing 7.

The rotor 3 extends inside the shell 7 between the ball bearing 6 and the fan 5 so that the airflow generated by the fan can flow along the rotor towards the ball bearing 6 to cool the rotor.

This ball bearing 6, mounted on the rotating shaft 4, comprises an outer ring 9 and an inner ring 10 which are coaxial, and two side pieces 11 which delimit between them a chamber 12 inside which the balls 13 of the bearing are arranged. This chamber 12 contains a lubricant such as grease.

The inner ring 10 is connected to the rotary shaft 4 in a torque-proof manner. The outer ring 9 of the bearing 6 is fixed in place inside the shell 7 .

This non-rotatable mounting of the outer ring 9 of the bearing 6 inside the casing 7 is obtained by the outer ring 9 bearing against the casing 7 .

In order to avoid too rapid damage to the ball bearing 6 in contact with this air flow, which may contain dust, the electric motor 1 comprises a deflection disc 14 mounted on the rotary shaft 4 between the rotor 3 and the ball bearing 6. Thus, the electric motor 1, seen from the fan 5 in the direction of the ball bearing 6, comprises at least the rotor 3 and the deflection disk 14.

This deflection disk 14 is arranged at least at a distance from the outer ring 9 of the ball bearing 6 . In general, the distance separating the deflection disc 14 from the outer ring 9 is between 0.1 mm and 2 mm.

This deflection disk 14, which is connected in rotation with the rotary shaft 4, has an outside diameter which is at least equal to the inside diameter Di of the outer ring 9 of the bearing 6. This inner diameter Di of the outer ring 9 of the bearing 6 is measured at the side piece 11 of the ball bearing 6 which is the deflection disc 14 closest.

The detail of this dimensional relationship between the deflector disc and the outer ring of the bearing is in 3 shown.

The deflection disk 14 has a central recess for its mounting on the rotating shaft 4 .

A spacer 15 through which the rotary shaft 4 passes and which is carried by this rotary shaft 4 is interposed between the ball bearing 6 and the deflection disc 14 . This spacer 15 makes it possible to keep the deflection disc 14 at least from the outer ring 9 of the bearing 6 at a distance.

The rotary shaft 4 carries, in the example shown, the pinion of a drive device 21 which can take a large number of forms. Irrespective of the embodiment of the drive device 21 , the rotary motion of the rotary shaft 4 is transmitted to the drive device 21 .

This drive device 21 here enables at least some of the wheels of the lawnmower to be driven in rotation. This drive device 21, arranged between the rotary shaft 4 of the electric motor 1 and the drive shaft of the wheels, can comprise at least one wheel train, a clutch mechanism, a gear wheel, the output shaft, which forms the drive shaft of the wheels of the mobile machine 23, meshing with the gear wheel reached.

A detailed structure of such a drive device is for example in the patent FR 3 036 450 described, but in itself only represents an exemplary embodiment.

Such a drive device and at least part of the electric motor can be accommodated inside a housing 22 . This housing 22 thus forms the housing of the transmission unit 20, as shown in FIGS 5 and 6 shown.

Thanks to the presence of the baffle disc 14, when the rotor rotates and drives the fan 5 to rotate, the air generated by the fan becomes flow is deflected by the deflection disc 14, which prevents this air flow from reaching the bearing 6 directly, so that if this air flow contains dust, the bearing 6 can be at least partially protected.

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• FR 3036450 [0036]

Claims (5)

Electric motor (1) comprising a stator (2) and a rotor (3) mounted coaxially with each other, a rotating shaft (4) driven by the rotor (3), a fan (5) connected to the rotating shaft (4) coaxial and non-rotatably connected to this rotary shaft (4), at least one ball bearing (6) mounted on the rotary shaft (4) and a perforated casing (7) inside which the rotor (3), the stator ( 2) the rotating shaft (4), the fan (5) and the ball bearing (6) are at least partially arranged, the ball bearing (6) comprising an outer ring (9) and an inner ring (10) which are coaxial, and two side pieces (11) delimiting between them a chamber (12) containing a lubricant and housing the balls (13) of the bearing (6), the inner ring (10) being non-rotatably connected to the rotary shaft (4). , the outer ring (9) of the bearing (6) being non-rotatably mounted inside the casing (7), characterized in that the motor (1) has a deflection disc (14) mounted on the rotating shaft (4) between the rotor (3) and the ball bearing (8), and at least one spacer (15) arranged between the ball bearing (6) and the deflection disc (14) to surround the deflection disc (14) at least from the outer ring (9) of the ball bearing (6), wherein the deflection disc (14) non-rotatably connected to the rotary shaft (4) has an outer diameter at least equal to the inner diameter ( Di) of the outer ring (9) of the bearing (6), this inner diameter (Di) of the outer ring (9) of the bearing (6) being measured at the side piece (11) of the ball bearing (6) which is the deflection disc (14) is closest. Electric motor (1) after claim 1 , characterized in that the fan (5) comprises several so-called radial blades (16) for air circulation, mounted in a radial arrangement on a common support (17) which is non-rotatably connected to the rotary shaft (4). Electric motor (1) according to one of Claims 1 or 2 , characterized in that the rotor (3) is arranged between the fan (5) and the ball bearing (6). Transmission unit (20), which comprises at least one electric motor (1) and a drive device (21), the electric motor (1) having a stator (2) and a rotor (3) which are mounted coaxially with one another, one of the rotor (3 ) driven rotary shaft (4), a fan (5) coaxial with the rotary shaft (4) and non-rotatably connected to this rotary shaft (4), at least one ball bearing (6) mounted on the rotary shaft (4), and a perforated shell (7) inside which the rotor (3), the stator (2), the rotary shaft (4), the fan (5) and the ball bearing (6) are at least partially arranged, the ball bearing (6) an outer ring (9) and an inner ring (10) which are coaxial, and two side pieces (11) which delimit between them a chamber (12) containing a lubricant and the balls (13) of the bearing (6 ) receives, includes, wherein the inner ring (10) is non-rotatably connected to the rotary shaft (4), the outer ring (9) of the bearing (6) ortsfe st is mounted inside the shell (7), characterized in that the electric motor (1) with one of Claims 1 until 3 in that the driving device (21) is a driving device with which the rotary shaft (4) of the motor (1) is capable of transmitting the rotary motion of the rotary shaft (4) to the driving device (21) to engage to come, and in that the electric motor (1) and at least part of the drive device (21) are accommodated at least partially inside a housing (22) which forms the housing of the gear unit (20). Mobile machine (23), such as a lawn mower, wherein the mobile machine (23) comprises at least one electric motor (1), characterized in that the electric motor (1) with one of Claims 1 until 3 is compliant.

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